GNSS Threat Monitoring and Reporting: Past, Present, and a Proposed Future-Reference-Cited by-同舟云学术

GNSS Threat Monitoring and Reporting: Past, Present, and a Proposed Future

Published:2017-12-07 Issue:3 Volume:71 Page:513-529
ISSN:0373-4633
Container-title:Journal of Navigation
language:en
Short-container-title:J. Navigation

Author:

Thombre Sarang^ORCID,Bhuiyan M. Zahidul H.,Eliardsson Patrik,Gabrielsson Björn,Pattinson Michael,Dumville Mark,Fryganiotis Dimitrios,Hill Steve,Manikundalam Venkatesh,Pölöskey Martin,Lee Sanguk,Ruotsalainen Laura,Söderholm Stefan,Kuusniemi Heidi

Abstract

Vulnerability of satellite-based navigation signals to intentional and unintentional interference calls for a high-level overview of Global Navigation Satellite System (GNSS) threats occurring globally to understand the magnitude and evolution of the problem. Therefore, a mechanism needs to be developed whereby disparate monitoring systems will be capable of contributing to a common entity of basic information about the threat scenarios they experience. This paper begins with a literature survey of 37 state-of-the-art GNSS threat monitoring systems, which have been analysed based on their respective operational features - constellations monitored and whether they possess the capability to perform interference-type classification, spoofing detection, and interference localisation. Also described is a comparative analysis of four GNSS threat reporting formats in use today. Based on these studies, the paper describes the Horizon2020 Standardisation of GNSS Threat Reporting and Receiver Testing through International Knowledge Exchange, Experimentation and Exploitation (STRIKE3) proposed integrated threat monitoring demonstration system and related standardised threat reporting message, to enable a high-level overview of the prevailing international GNSS threat scenarios and its evolution over time.

Publisher

Cambridge University Press (CUP)

Subject

Ocean Engineering,Oceanography

Reference49 articles.

1. Zhen W. (2012). Comprehensive Monitoring and Information Sharing of GNSS Interference. The 7th meeting of International Committee on GNSS, Work Group A, Beijing, China. http://www.unoosa.org/pdf/icg/2012/icg-7/wg/wga3-1.pdf. Accessed 24 May 2017.

2. TeleConsult Austria (2017). GNSS Airport Interference Monitoring System including Localization Capabilities (GAIMS). http://www.teleconsult-austria.at/gaims-3-en. Accessed 24 May 2017.

3. Thales. (2015). TopAlert: Real-Time GPS Jamming And Spoofing Detection. https://www.thalesgroup.com/sites/ default/files/asset/document/avs_nav_mav_topalert_june2015.pdf. Accessed 24 May 2017.

4. Overlook Systems Technologies. (2017). Patriotwatch, Patriotshield, Patriotsword: A Proposed Solution to Address Risk to U.S. Critical Infrastructure. http://overlooksys.com/assets/files/Patriot_20WatchShieldSword.pdf. Accessed 24 May 2017.

5. O'Mahony G. , O'Mahony S. , Curran J. T. and Murphy C. C. (2015). Developing a Low-Cost Platform for GNSS Interference Detection. Proceedings of the 2015 European Navigation Conference, Bordeaux, France.

Cited by 40 articles. 订阅此论文施引文献订阅此论文施引文献，注册后可以免费订阅5篇论文的施引文献，订阅后可以查看论文全部施引文献

1. RTK+OSNMA Positioning for Road Applications: An Experimental Performance Analysis in Finland;Sensors;2024-01-18

2. Satellite Interference Source Direction of Arrival (DOA) Estimation Based on Frequency Domain Covariance Matrix Reconstruction;Sensors;2023-08-31

3. Jamming Source Localization Using Augmented Physics-Based Model;ICASSP 2023 - 2023 IEEE International Conference on Acoustics, Speech and Signal Processing (ICASSP);2023-06-04

4. Detecting GNSS misbehavior leveraging secure heterogeneous time sources;2023 IEEE/ION Position, Location and Navigation Symposium (PLANS);2023-04-24

5. Crowdsourced Jammer Localization Using APBMs: Performance Analysis Considering Observations Disruption;2023 IEEE/ION Position, Location and Navigation Symposium (PLANS);2023-04-24